December 23, 2024

Graphene’s Hidden Electron Vortices Revealed Through Quantum Sensing

Theoretical computations suggested that electron vortices should form in the smaller, but not in the bigger disks.To make the vortices visible the scientists measured the small magnetic fields produced by the electrons streaming inside the graphene. While in typical (diffusive) electron transportation, the electrons in strip and disc circulation in the same direction, in the case of a vortex, the circulation direction inside the disc is inverted. By applying an electric voltage from listed below the graphene, they changed the number of free electrons in such a method that the current circulation was no longer carried by electrons, however rather by missing out on electrons, also called holes.

Using a magnetic field sensor (red arrow) inside a diamond needle, researchers at ETH imaged electron vortices in a graphene layer (blue). Well-known circulation phenomena such as vortices must happen in the graphene layer.Reporting in the clinical journal Science, scientists at ETH Zurich in the group of Christian Degen have now handled to straight detect electron vortices in graphene for the first time, utilizing a high-resolution magnetic field sensor.Highly Sensitive Quantum Sensing MicroscopeThe vortices formed in little circular disks that Degen and his colleagues had connected throughout the fabrication process to a conducting graphene strip just one micrometer wide. Theoretical calculations suggested that electron vortices ought to form in the smaller sized, however not in the larger disks.To make the vortices visible the researchers measured the small magnetic fields produced by the electrons streaming inside the graphene. While in normal (diffusive) electron transport, the electrons in strip and disc flow in the exact same instructions, in the case of a vortex, the circulation direction inside the disc is inverted. By using an electrical voltage from below the graphene, they altered the number of complimentary electrons in such a way that the existing circulation was no longer brought by electrons, however rather by missing electrons, also called holes.